TFT LCD Approval Specification
MODEL NO.: M220Z1-L06
Customer :
Approved by :
Note :
□ □
□ □
□ □
□ □
□ □
2007-01 -04
12:46:21 CST
Approve by
Dept. Mgr.(QA
RA)
tomy_chen(n □ □
/52720/541 40/431 50)
Department
Manager(QA RA)
Accept
2007-01-03
08:51 :02 CST
Approve by
Director
teren_lin(Q □ □
/5691 0/36064)
Director
Accept
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- CONTENTS -
REVISION HISTORY 3
1. GENERAL DESCRIPTION 4
1.1 OVERVIEW
1.2 FEATURES
1.3 APPLICATION
1 .4 GENERAL SPECIFICATIONS
1.5 MECHANICAL SPECIFICATIONS
2. ABSOLUTE MAXIMUM RATINGS 5
2.1 ABSOLUTE RATINGS OF ENVIRONMENT
2.2 ELECTRICAL ABSOLUTE RATINGS
2.2.1 TFT LCD MODULE
2.2.2 BACKLIGHT UNIT
3. ELECTRICAL CHARACTERISTICS 7
3.1 TFT LCD MODULE
3.2 BACKLIGHT UNIT
4. BLOCK DIAGRAM 11
4.1 TFT LCD MODULE
4.2 BACKLIGHT UNIT
5. INPUT TERMINAL PIN ASSIGNMENT 12
5.1 TFT LCD MODULE
5.2 BACKLIGHT UNIT
5.3 COLOR DATA INPUT ASSIGNMENT
6. INTERFACE TIMING 15
6.1 INPUT SIGNAL TIMING SPECIFICATIONS
6.2 POWER ON/OFF SEQUENCE
7. OPTICAL CHARACTERISTICS 17
7.1 TEST CONDITIONS
7.2 OPTICAL SPECIFICATIONS
8. PACKAGING 20
8.1 PACKING SPECIFICATIONS
8.2 PACKING METHOD
9. DEFINITION OF LABELS 23
9.1 CMO MODULE LABEL
10. PRECAUTIONS 24
10.1 ASSEMBLY AND HANDLING PRECAUTIONS
10.2 SAFETY PRECAUTIONS
11. MECHANICAL CHARACTERISTICS 25
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0 Global LCD Panel Exchange Center
www.panelook. com
M1CHIMEI
OPTOELECTRONICS CORR
U UU INU. . I M-UO T IO/
Issued Date: Jan. 02, 2007
Model No : M220Z1-L06
Approval
REVISION HISTORY
Version
Date
Section
Description
Ver 2.0
Jan, 02 ‘07
All
M220Z1-L06 Specifications was first issued^
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1 . GENERAL DESCRIPTION
1.1 OVERVIEW
The M220Z1-L06 model is a 22 inch wide TFT-LCD module with a 4-CCFL Backlight Unit and a 30-pin
2ch-LVDS interface. This module supports 1680 x 1050 WSXGA + (16:10 wide screen) mode and displays
up to 1 6.7 millions colors. The inverter module for the Backlight Unit is not built in.
1.2 FEATURES
- Super wide viewing angle
- High contrast ratio
- Fast response time
- High color saturation (EBU Like Specifications)
- WSXGA + (1680 x 1050 pixels) resolution
- DE (Data Enable) only mode
- LVDS (Low Voltage Differential Signaling) interface
1.3 APPLICATION
- Workstation & desktop monitor
- Display terminals for AV application
1 .4 GENERAL SPECIFICATIONS
Item
Specification
Unit
Note
Diagonal size
558.68
mm
Active Area
473.76x296.1
mm
(1)
Bezel Opening Area
477.7 (H)x 300.1 (V)
mm
Driver Element
a-Si TFT active matrix
-
-
Pixel Number
1 680 xR.G.B.x 1050
pixel
-
Pixel Pitch
0.282(H) x 0.282(V)
mm
-
Pixel Arrangement
RGB vertical stripe
-
-
Display Colors
16.7 millions
color
-
Transmissive Mode
Normally White
-
-
Surface Treatment
Hard coating (2H), Glare (LR< 3%)
-
-
1.5 MECHANICAL SPECIFICATIONS
Item
Min.
Typ.
Max.
Unit
Note
Module Size
Horizontal(H)
493.2
493.7
494.2
mm
(1)
Vertical(V)
319.6
320.1
320.6
mm
Depth(D)
16
16.5
17
mm
Weight
2550
0
l/F connector mounting
position
The mounting inclination of the connector makes
the screen center within ±0.5 mm as the horizontal.
Note (1) Please refer to the attached drawings for more information of front and back outline dimensions.
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2. ABSOLUTE MAXIMUM RATINGS
2.1 ABSOLUTE RATINGS OF ENVIRONMENT
Item
Symbol
Va
ue
Unit
Note
Min.
Max.
Storage Temperature
Tst
-20
+60
a C
(D
Operating Ambient Temperature
Top
0
+50
a C
(1U2)
Shock (Non-Operating)
Snop
-
50
G
(3), (5)
Vibration (Non-Operating)
Vnop
-
1
G
(4), (5)
LCD Cell Life Time
Lcell
50,000
-
Hrs
MTBF
based
Note (1) Temperature and relative humidity range is shown in the figure below.
(a) 90% RH Max. (Ta ^ 40 a C).
(b) Wet-bulb temperature should be 39 a C Max. (Ta > 40 a C).
(c) No condensation.
Note (2) The temperature of panel surface should be 0 a C Min. and 60 a C Max.
Relative Humidity (%RH)
Temperature ( g C)
Note (3) 11 ms, half-sine wave, 1 time for ± X, ± Y, ± Z.
Note (4) 10 ~ 300 Hz, sweep rate 10 min / cycle , 30 min for X,Y,Z axis
Note (5) Upon the Vibration and Shock tests, the fixture used to hold the module must be firm and rigid
enough to prevent the module from twisting or bending by the fixture.
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2.2 ELECTRICAL ABSOLUTE RATINGS
2.2.1 TFT LCD MODULE
Item
Symbol
Va
ue
Unit
Note
Min.
Max.
Power Supply Voltage
Vcc
-0.3
+5.5
V
(1)
Logic Input Voltage
V IN
-0.3
+4.3
V
2.2.2 BACKLIGHT UNIT
Item
Symbol
Va
ue
Unit
Note
Min.
Max.
Lamp Voltage
V L
-
2.5K
Vrms
(1), (2), l L = 7.0 mA
Lamp Current
II
3.0
8.0
HIArms
(1).(2)
Lamp Frequency
F l
40
80
KHz
Note (1) Permanent damage might occur if the module is operated at conditions exceeding the maximum
values.
Note (2) Specified values are for lamp (Refer to 3.2 for further information).
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3. ELECTRICAL CHARACTERISTICS
3.1.1 TFT LCD MODULE Ta = 25 ± 2 e C
Parameter
Symbol
Value
Unit
Note
Min.
Typ.
Max.
Power Supply Voltage
Vcc
4.5
5.0
5.5
V
-
Ripple Voltage
Vrp
-
-
100
mV
-
Rush Current
Irush
-
-
3
A
(2)
Power Supply Current
White
Icc
-
630
819
mA
(3)a
Black
-
1170
1521
mA
(3)b
fv = 75Hz,
Vcc=4.5V
-
1330
1729
mA
(4)
LVDS differential input voltage
Vid
-100
-
+100
mV
LVDS common input voltage
Vic
-
1.2
-
V
Note (1) The module is recommended to operate within specification ranges listed above for normal
function.
Note (2) Measurement Conditions:
Vcc rising time is 470us
+5.0V
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Note (3) The specified power supply current is under the conditions at Vcc = 5.0 V, Ta = 25 ± 2 a C, f v = 60
Hz, whereas a power dissipation check pattern below is displayed.
a. White Pattern b. Black Pattern
Active Area Active Area
Note (4) The specified power supply current is under the conditions at Vcc = 4.5 V, Ta = 25 ± 2 e C, f v = 75
Hz, whereas a power dissipation check pattern (Black Pattern) below is displayed.
Black Pattern
Active Area
3.1.2 Vcc Power Dip Condition:
Dip condition : 4.ov < Vcc < 4.5V.TO < 20m.s
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3.2 BACKLIGHT UNIT
Parameter
Symbol
Value
Unit
Note
Min.
Typ.
Max.
Lamp Input Voltage
V L
738
820
902
Vrms
l L = (7.0) mA
Lamp Current
II
3
7.0
8
itiArms
(D
Lamp Turn On Voltage
V s
-
-
1 560(25 °C)
Vrms
(2)
-
-
1 800(0 °C)
Vrms
(2)
Operating Frequency
F l
40
60
80
KHz
(3)
Lamp Life Time
Lbl
50000
-
Hrs
(5) l L = (7.0) mA
Power Consumption
Pl
-
22.96
-
W
(4), l L = (7.0) mA
Note (1) Lamp current is measured by utilizing high-frequency current meters as shown below:
HV (Pink)
LV (White)
HV (Blue)
LV (Black)
Ta = 25 ± 2 a C
The voltage that must be larger than Vs should be applied to the lamp for more than 1 second
after startup. Otherwise, the lamp may not be turned on normally.
The lamp frequency may produce interference with horizontal synchronization frequency from the
display, which might cause line flow on the display. In order to avoid interference, the lamp
frequency should be detached from the horizontal synchronization frequency and its harmonics
as far as possible.
P L = l L >V l X 4CCFLs
The lifetime of lamp can be defined as the time in which it continues to operate under the
condition Ta = 25 d2 °C and l L = 7 mArms until one of the following events occurs:
(a) When the brightness becomes or lower than 50% of its original value.
(b) When the effective ignition length becomes or lower than 80% of its original value. (Effective
ignition length is defined as an area that has less than 70% brightness compared to the
brightness in the center point.)
The waveform of the voltage output of inverter must be area-symmetric and the design of the
inverter must have specifications for the modularized lamp. The performance of the Backlight,
such as lifetime or brightness, is greatly influenced by the characteristics of the DC-AC inverter
for the lamp. All the parameters of an inverter should be carefully designed to avoid producing too
much current leakage from high voltage output of the inverter. When designing or ordering the
inverter please make sure that a poor lighting caused by the mismatch of the Backlight and the
inverter (miss-lighting, flicker, etc.) never occurs. If the above situation is confirmed, the module
should be operated in the same manners when it is installed in your instrument.
Note (2)
Note (3)
Note (4)
Note (5)
Note (6)
<5>
Current Meter
YOKOGAWA 201 6
LCD
Module
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The output of the inverter must have symmetrical (negative and positive) voltage waveform and
symmetrical current waveform. (Unsymmetrical ratio is less than 10%) Please do not use the inverter
which has unsymmetrical voltage and unsymmetrical current and spike wave. Lamp frequency may
produce interface with horizontal synchronous frequency and as a result this may cause beat on the
display. Therefore lamp frequency shall be as away possible from the horizontal synchronous
frequency and from its harmonics in order to prevent interference.
Requirements for a system inverter design, which is intended to have a better display performance, a
better power efficiency and a more reliable lamp. It shall help increase the lamp lifetime and reduce its
leakage current.
a. The asymmetry rate of the inverter waveform should be 10% below;
b. The distortion rate of the waveform should be within V 2 ± 10%;
c. The ideal sine wave form shall be symmetric in positive and negative polarities.
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4. BLOCK DIAGRAM
4.1 TFT LCD MODULE
RXOO(+/-).
RXOI (+/-)
RX02(+/-)
RX03(+/-)
RXOC(+/-)
RXE0(+/-)
RXE1 (+/-)
RXE2(+/-)
RXE3(+/-)
RXEC(+/-)
AGMODE
Vcc
GND
LAMP CONNECTOR
(YEONHO 35001 HS-02L)
>
BACKLIGHT UNIT
4.2 BACKLIGHT UNIT
ri f
r< ^
r< ^
ri ^
1 HV(Pink)
* 2 LV(White)
1 HV(Blue)
* ~2 LV( Black)
1 HV(Pink)
* 2 LV(White)
1 HV(Blue)
* ~2 LV(Black)
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5. INPUT TERMINAL PIN ASSIGNMENT
5.1 TFT LCD MODULE
Pin
Name
Description
1
RXOO-
Negative LVDS differential data input. Channel OO (odd)
2
RXOO+
Positive LVDS differential data input. Channel OO (odd)
3
RXOI-
Negative LVDS differential data input. Channel 01 (odd)
4
RX01 +
Positive LVDS differential data input. Channel 01 (odd)
5
RX02-
Negative LVDS differential data input. Channel 02 (odd)
6
RX02+
Positive LVDS differential data input. Channel 02 (odd)
7
GND
Ground
8
RXOC-
Negative LVDS differential clock input, (odd)
9
RXOC+
Positive LVDS differential clock input, (odd)
10
RX03-
Negative LVDS differential data input. Channel 03(odd)
11
RX03+
Positive LVDS differential data input. Channel 03 (odd)
12
RXE0-
Negative LVDS differential data input. Channel EO (even)
13
RXE0+
Positive LVDS differential data input. Channel EO (even)
14
GND
Ground
15
RXE1-
Negative LVDS differential data input. Channel El (even)
16
RXE1 +
Positive LVDS differential data input. Channel El (even)
17
GND
Ground
18
RXE2-
Negative LVDS differential data input. Channel E2 (even)
19
RXE2+
Positive LVDS differential data input. Channel E2 (even)
20
RXEC-
Negative LVDS differential clock input, (even)
21
RXEC+
Positive LVDS differential clock input, (even)
22
RXE3-
Negative LVDS differential data input. Channel E3 (even)
23
RXE3+
Positive LVDS differential data input. Channel E3 (even)
24
GND
Ground
25
NC
Not connection, should open.
26
VCOM
VCOM Control, should open.
27
AGMODE
AGMODE should be tied to ground or open.
28
VCC
+5.0V power supply
29
VCC
+5.0V power supply
30
VCC
+5.0V power supply
Note (1) Connector Part No.: 093G30-B0001 A(STARCONN) or FI-X30SSL-HF(JAE) or EQUIVALENT.
Note (2) Mating Connector Part No.:FI-X30H ; FI-X30C* ; FI-X30M* ; FI-X30HL(-T),FI-X30C*L(-T) [JAE]
Note (3) The first pixel is odd.
Note (4) Input signal of even and odd clock should be the same timing.
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SELLVDS = Low or Open
LVDS Channel E0
LVDS output
D7
D6
D4
D3
D2
D1
DO
Data order
EGO
ER5
ER4
ER3
ER2
ER1
ERO
LVDS Channel El
LVDS output
D18
D15
D14
D13
D12
D9
D8
Data order
EB1
EBO
EG5
EG4
EG3
EG2
EG1
LVDS Channel E2
LVDS output
D26
D25
D24
D22
D21
D20
D19
Data order
DE
NA
NA
EB5
EB4
EB3
EB2
LVDS Channel E3
LVDS output
D23
D17
D16
Dll
DIO
D5
D27
Data order
NA
EB7
EB6
EG7
EG6
ER7
ER6
LVDS Channel OO
LVDS output
D7
D6
D4
D3
D2
D1
DO
Data order
OGO
0R5
0R4
0R3
0R2
0R1
ORO
LVDS Channel 01
LVDS output
D18
D15
D14
D13
D12
D9
D8
Data order
OBI
OBO
0G5
0G4
0G3
0G2
0G1
LVDS Channel 02
LVDS output
D26
D25
D24
D22
D21
D20
D19
Data order
DE
NA
NA
0B5
0B4
0B3
0B2
LVDS Channel 03
LVDS output
D23
D17
D16
Dll
DIO
D5
D27
Data order
NA
0B7
0B6
0G7
0G6
0R7
0R6
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5.2 BACKLIGHT UNIT
Pin
Symbol
Description
Remark
1
HV
High Voltage
Pink
2
LV
Low Voltage
White
1
HV
High Voltage
Blue
2
LV
Low Voltage
Black
Note (1) Connector Part No.: YEONHO 35001 HS-02L or equivalent
Note (2) User’s connector Part No.: YEONHO 35001 WR-02L or equivalent
5.3 COLOR DATA INPUT ASSIGNMENT
The brightness of each primary color (red, green and blue) is based on the 8-bit gray scale data input for
the color. The higher the binary input, the brighter the color. The table below provides the assignment of
color versus data input.
Color
Data Signal
Red
Green
Blue
R7
R6
R5
R4
R3
R2
R1
R0
G7
G6
G5
G4
G3
G2
G1
GO
B7
B6
B5
B4
B3
B2
B1
B0
Black
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Red
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Green
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
Basic
Blue
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
Colors
Cyan
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Magenta
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
Yellow
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
White
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Red(0) / Dark
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Red(1)
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Red(2)
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Gray
Scale
Of
Red(253)
1
1
1
1
1
1
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Red
Red(254)
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Red(255)
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Green(0) / Dark
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Green(l)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
Gray
Green(2)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
Scale
Of
Green(253)
0
0
0
0
0
0
0
0
1
1
1
1
1
1
0
1
0
0
0
0
0
0
0
0
Green(254)
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
Green(255)
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
Blue(0) / Dark
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Blue(1)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
Gray
Blue(2)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
Scale
Of
Blue(253)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
0
1
l—» 1 U C
Blue(254)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
0
Blue(255)
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
Note (1) 0: Low Level Voltage, 1 : High Level Voltage
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6. INTERFACE TIMING
6.1 INPUT SIGNAL TIMING SPECIFICATIONS
The input signal timing specifications are shown as the following table and timing diagram.
Signal
Item
Symbol
Min.
Typ.
Max.
Unit
Note
LVDS Clock
Frequency
Fc
50
59.5
82
MHz
-
Period
Tc
13.4
16.8
-
ns
High Time
Tch
-
4/7
-
Tc
-
Low Time
Tel
-
3/7
-
Tc
-
LVDS Data
Setup Time
Tlvs
600
-
-
ps
-
Hold Time
Tlvh
600
-
-
ps
-
Vertical Active Display Term
Frame Rate
Fr
50
60
76
Hz
Tv=Tvd+Tvb
Total
Tv
1060
1080
1195
Th
-
Display
Tvd
1050
1050
1050
Th
-
Blank
Tvb
Tv-Tvd
30
Tv-Tvd
Th
-
Horizontal Active Display Term
Total
Th
890
920
1000
Tc
Th=Thd+Thb
Display
Thd
840
840
840
Tc
-
Blank
Thb
Th-Thd
80
Th-Thd
Tc
-
NoteD (1) Because this module is operated by DE only mode, Hsync and Vsync input signals should be
set to low logic level or ground. Otherwise, this module would operate abnormally.
INPUT SIGNAL TIMING DIAGRAM
□CLK
D£
DATA,
LnmjniLmnnnfl nmu\ nsum
h
Tc
4 Tht»
<
Valid! d sp-ay darts (&40 cock&j
r
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6.2 POWER ON/OFF SEQUENCE
To prevent a latch-up or DC operation of LCD module, the power on/off sequence should follow the
conditions shown in the following diagram.
Power ON/OFF Sequence
Note.
(1) The supply voltage of the external system for the module input should be the same as the definition of Vcc.
(2) Please apply the lamp voltage within the LCD operation range. When the backlight turns on before the LCD
operation of the LCD turns off, the display may, instantly, function abnormally.
(3) In case of vcc = off level, please keep the level of input signals on the low or keep a high impedance.
(4) T4 should be measured after the module has been fully discharged between power on/off periods.
(5) Interface signal shall not be kept at high impedance when the power is on.
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7. OPTICAL CHARACTERISTICS
7.1 TEST CONDITIONS
Item
Symbol
Value
Unit
Ambient Temperature
Ta
25+2
°C
Ambient Humidity
Ha
50±1 0
%RH
Supply Voltage
<
O
O
5.0
V
Input Signal
According to typical value in "3. ELECTRICAL CHARACTERISTICS"
Inverter Current
II
7.0
mA
Inverter Driving Frequency
F l
61
KHz
Inverter
SUMIDAH05 5307
7.2 OPTICAL SPECIFICATIONS
The relative measurement methods of optical characteristics are shown in 7.2. The following items should
be measured under the test conditions described in 7.1 and stable environment shown in Note (6).
Item
Symbol
Condition
Min.
Typ.
Max.
Unit
Note
Color
Chromaticity
Red
Rx
0x=O°, 0 Y =0°
CS-1000T
R=G=B=255
Grayscale
Typ-
0.03
0.649
Typ +
0.03
(1).(5)
Ry
0.335
Green
Gx
0.283
Gy
0.605
Blue
Bx
0.151
By
0.073
White
Wx
0.313
Wy
0.329
Center Luminance of White
Lc
250
300
...
cd/m 2
(4), (5)
Contrast Ratio
CR
700
1000
...
-
(2), (6)
Response Time
Tr
0 X =O°, 0 Y =0°
—
1.3
2.2
ms
(3)
T f
...
3.7
5.8
ms
White Variation
sw
0x=O°, 0 Y =0°
...
1.3
1.42
-
(5), (6)
Viewing Angle
Horizontal
0X+
CR>1 0
75
85
...
Deg.
(1), (5)
0x-
75
85
...
Vertical
0Y+
70
80
...
0y-
70
80
...
Note (1) Definition of Viewing Angle (0x, 0y):
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Normal
0x = 9y = 0°
Note (2) Definition of Contrast Ratio (CR):
The contrast ratio can be calculated by the following expression.
Contrast Ratio (CR) = L255 / LO
L255: Luminance of gray level 255
L 0: Luminance of gray level 0
CR = CR (5)
CR (X) is corresponding to the Contrast Ratio of the point X at Figure in Note (6).
Note (3) Definition of Response Time (T R , T F ):
100%
90 %
Opti cal
Response
10 %
0 %
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Note (4) Definition of Luminance of White (L c ):
Measure the luminance of gray level 255 at center point
Lc = L (5)
L (x) is corresponding to the luminance of the point X at Figure in Note (6).
Note (5) Measurement Setup:
The LCD module should be stabilized at given temperature for 20 minutes to avoid abrupt
temperature change during measuring. In order to stabilize the luminance, the measurement
should be executed after lighting Backlight for 20 minutes in a windless room.
LCD Module
LCD Panel
USB2000 CS-1000T
E 3^==—
Field of View = 2 -
Center of the Screen
^ 500 mm
Light Shield Room
(Ambient Luminance < 2 lux)
Note (6) Definition of White Variation (5W):
Measure the luminance of gray level 255 at 9 points
5W = Maximum [L (1) ~ L (9)] / Minimum [L (1) ~ L (9)]
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Horizontal Line
® : Test Point
X=1 to 9
8. PACKAGING
8.1 PACKING SPECIFICATIONS
(1) 5 LCD modules / 1 Box
(2) Box dimensions: 595(L) X 330 (W) X 440 (H) mm
(3) Weight: 14.75 Kg (5 modules per box)
8.2 PACKING METHOD
(1) Carton Packing should have no failure in the following reliability test items.
Test Item
Test Conditions
Note
Vibration
ISTA STANDARD
Random, Frequency Range: 1 - 200 Hz
Top & Bottom: 30 minutes (+Z), 10 min (-Z),
Right & Left: 10 minutes (X)
Back & Forth 1 0 minutes (Y)
Non Operation
Dropping Test
1 Angle, 3 Edge, 6 Face, 60cm
Non Operation
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Global LCD Panel Exchange Center
www.panelook. com
^lCHIMEI
OPTOELECTRONICS CORR
U UU INU. . I M-UO T IO/
Issued Date: Jan. 02, 2007
Model No : M220Z1-L06
Approval
LCD Module
Box Dinensions!595(L)*330(V)*440(H)nn
WeightiApprox, 14.75kg
Figure. 8-2 Packing method
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For air transport
9. DEFINITION OF LABELS
9.1 CMO MODULE LABEL
The barcode nameplate is pasted on each module as illustration, and its definitions are as following explanation.
E*
M220Z1 -Lm Rev. XX
I
cTO.
XXKKKmMCtWhhl
CTi»[jiS
<tonS EM7Iwa
BADE « mXVK
ii in uni uni mu mu ii
iiiiiini mi limn
III!
II
C Mil Oil X XX XX LXKLVM □ NtJ UN
(a) Model Name: M220Z1-L06
(b) Revision: Rev. XX, for example: AO, A1 ... B1 , B2... or Cl , C2...etc.
(c) CMO barcode definition:
Serial ID: XX-XX-X-XX-YMD-L-NNNN
Code
Meaning
Description
XX
CMO internal use
-
XX
Revision
Cover all the change
X
CMO internal use
-
XX
CMO internal use
-
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YMD
Year, month, day
Year: 2001=1, 2002=2, 2003=3, 2004=4...
Month: 1-12=1, 2, 3, ~, 9, A, B, C
Day: 1-31=1, 2, 3, ~, 9, A, B, C, ~, W, X, Y, exclude 1, O, and U.
L
Product line #
Line 1=1, Line 2=2, Line 3=3, ...
NNNN
Serial number
Manufacturing sequence of product
(d) Customer’s barcode definition:
Serial ID: CM-22Z1 6-X-X-X-XX-L-XX-L-YMD-NNNN
Code
Meaning
Description
CM
Supplier code
CMO=CM
22Z16
Model number
M220Z1 -L06=22Z1 6
X
Revision code
C1=1, C2=2, ....
X
Source driver 1C code
Century=1, CLL=2, Demos=3, Epson=4, Fujitsu=5, Himax=6,
Hitachi=7, Hynix=8, LDI=9, Matsushita=A, NEC=B, Novatec=C,
OKI=D, Philips=E, Renasas=F, Samsung=G, Sanyo=H, Sharp=l,
TI=J, Topro=K, Toshiba=L, Windbond=M
X
Gate driver 1C code
XX
Cell location
Tainan, Taiwan=TN
L
Cell line #
1 ~12=0~C
XX
Module location
Tainan, Taiwan=TN; Ningbo China=CN
L
Module line #
1 ~12=0~C
YMD
Year, month, day
Year: 2001=1, 2002=2, 2003=3, 2004=4...
Month: 1-12=1, 2, 3, ~, 9, A, B, C
Day: 1 -31 =1 , 2, 3, ~, 9, A, B, C, ~, T, U, V
NNNN
Serial number
By LCD supplier
10. PRECAUTIONS
10.1 ASSEMBLY AND HANDLING PRECAUTIONS
(1) Do not apply rough force such as bending or twisting to the module during assembly.
(2) To assemble or install module into user’s system can be only in clean working areas. The dust and oil
may cause electrical short or worsen the polarizer.
(3) It’s not permitted to have pressure or impulse on the module because the LCD panel and Backlight
will be damaged.
(4) Always follow the correct power sequence when LCD module is connecting and operating. This can
prevent damage to the CMOS LSI chips during latch-up.
(5) Do not pull the l/F connector in or out while the module is operating.
(6) Do not disassemble the module.
(7) Use a soft dry cloth without chemicals for cleaning, because the surface of polarizer is very soft and
easily scratched.
(8) It is dangerous that moisture come into or contacted the LCD module, because moisture may damage
LCD module when it is operating.
(9) High temperature or humidity may reduce the performance of module. Please store LCD module
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within the specified storage conditions.
(10) When ambient temperature is lower than 10 e C may reduce the display quality. For example, the
response time will become slowly, and the starting voltage of CCFL will be higher than room
temperature.
10.2 SAFETY PRECAUTIONS
(1) The startup voltage of Backlight is approximately 1000 Volts. It may cause electrical shock while
assembling with inverter. Do not disassemble the module or insert anything into the Backlight unit.
(2) If the liquid crystal material leaks from the panel, it should be kept away from the eyes or mouth. In
case of contact with hands, skin or clothes, it has to be washed away thoroughly with soap.
(3) After the module’s end of life, it is not harmful in case of normal operation and storage.
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